Adjustment of the mutual position of the latitudinal parts of a fabric guiding device

ABSTRACT

A fabric guiding device ( 1 ) for a face-to-face weaving machine, comprising a cutting knife ( 8 ) and an upper bridge ( 2 ) and a lower bridge ( 3 ) which are positionable at adjustable distances from one another and from the cutting knife ( 8 ) by means of drive means ( 4   a;    4   b ). On the other hand, a method for displacing a lower bridge ( 3 ) and/or an upper bridge (2).

This application claims the benefit of Belgian patent application No. BE2015/5135, filed Mar. 12, 2015, which is hereby incorporated by reference in its entirety.

FIELD OF THE DISCLOSURE

The present disclosure relates, on the one hand, to a fabric guiding device for a face-to-face weaving machine, comprising a cutting knife and an upper bridge and a lower bridge which are positionable at adjustable distances from one another and from the cutting knife by means of drive means. On the other hand, the present disclosure relates to a method for displacing a lower bridge and/or upper bridge.

The present disclosure further relates to a face-to-face weaving machine provided with a fabric guiding device according to the disclosure.

BACKGROUND

In this patent application, the terms upper bridge and lower bridge are used to refer to the cross beams which are secured above and underneath the fabric over the weaving width of the machine and which serve to guide the fabrics in the direction of the cutting knife. In this patent application, the space between the upper bridge and the lower bridge is also referred to as the jaw.

In face-to-face weaving machines, two fabrics are woven simultaneously, usually one above the other, each of which comprises a base fabric consisting of weft yarns and warp yarns. In the case of weaving fabrics with cut pile, these base fabrics are connected to one another with the aid of pile warp yarns which move from the bottom base fabric to the top base fabric and vice versa in a pattern-forming manner.

During the weaving process, the two fabrics (which together form the non-separated face-to-face fabric) are then moved together through the opening formed between the upper bridge and the lower bridge. These two fabrics in the non-separated face-to-face fabric are kept apart over a distance which substantially corresponds to the distance between upper bridge and lower bridge (the jaw height). In some cases, use is additionally made of a lancet device comprising elongate metal strips (the lancets). A plurality of lancets extends in the warp direction over the width of the weaving machine into the jaw, between the lower and upper base fabric. The non-separated face-to-face fabric is then supplied to the cutting device which will use a cutting knife to perform a cutting operation, thus forming two fabrics with cut pile.

The adjustment of this jaw is a delicate process involving: setting a specific, exact value of the jaw height;

-   -   keeping the jaw height equal on the left and the right of the         weaving machine;     -   keeping the cutting device in the correct position with respect         to the jaw;     -   preventing or at least limiting the bending of the upper bridge         and the lower bridge in order to minimize an uneven pile height         over the width of the weaving machine.

Belgian patent BE 1000995 describes a device which simplifies the adjustment of the jaw and which makes it no longer necessary to apply the ‘trial and error’ method in which the result of each adjustment of the jaw has to be assessed by weaving a piece of fabric. To this end, the cutting device is firstly provided with one or more electronic position sensors emitting a signal which is respectively in relation to the position of the upper bridge and the lower bridge with respect to the cutting knife. Secondly, the upper bridge and the lower bridge are each provided with adjusting spindles at their ends, which can optionally be driven by an electric motor in order to facilitate the adjustment of the upper bridge and the lower bridge. By readjusting the different adjusting spindles, it is possible to read and check the distances, on the one hand, between the upper bridge and the lower bridge and, on the other hand, between one of the bridges and a reference point on the weaving machine (upper or lower side of the cutting knife) or to use the processor unit to actuate the drive in order to thus reach the desired position.

Providing adjusting spindles driven by electric motors on both the upper bridge and the lower bridge and optionally using the processor unit to reach the desired position, makes adjustment of the jaw easy and reduces the risk of errors and inaccuracies, but is a complicated and expensive solution for operations which only have to be carried out occasionally.

SUMMARY

An object of some embodiments of the present invention is therefore to provide a simplified fabric guiding device for a face-to-face weaving machine, by means of which it is possible to automatically and accurately adjust, on the one hand, both the mutual position of the upper bridge and the lower bridge (jaw height) and, on the other hand, the position with respect to a reference in the weaving machine, for example the cutting position. The cutting position may be defined as the line of successive positions of the tip of the cutting knife during the cutting operation. As a good approximation of the cutting position, the movement of a point on the upper surface or lower surface of the cutting knife may be chosen, in which case, furthermore, half the thickness of the cutting knife is taken into account in order to approximate the actual cutting position as accurately as possible

The object may be achieved by providing a fabric guiding device for a face-to-face weaving machine, comprising a cutting knife and an upper bridge and a lower bridge which are positionable at adjustable distances from one another and from the cutting knife by means of drive means, wherein the device comprises coupling means which are switchable between a first position in which the upper bridge and the lower bridge are coupled to one another, as a result of which the upper bridge and the lower bridge are positionable together with the aid of said drive means, and a second position in which the upper bridge and the lower bridge are decoupled from one another so that only the upper bridge or only the lower bridge is positionable with the aid of the drive means.

Only directly positioning one of the two bridges via the drive means and using a coupling means which enables the user to either move only the bridge on which the drive means act directly or to move both bridges simultaneously has the advantage that the fabric guiding device is less complex with respect to what is known from the prior art, but that it nevertheless allows the mutual position of the upper bridge and the lower bridge (jaw height), on the one hand, and their position with respect to the cutting position, on the other hand, to be adjusted accurately and, above all, automatically.

This application refers to jaw height since the known devices for face-to-face weaving machines conduct the positioning of the bridges in a vertical plane. When positioning the bridges in a non-vertical plane, it will be clear that the term jaw height means the perpendicular distance between the upper bridge and the lower bridge.

With the coupling means, it is possible to (temporarily) lock the distance between the upper bridge and the lower bridge. The coupling means used in the fabric guiding device according to the invention preferably has a defined operative state when it is de-energized, either of the ‘normally open’ type or the ‘normally closed’ type. In order to bring about the coupling, the coupling means preferably comprises spring elements which are energized or de-energized in order to bring about or cancel the coupling.

In a particular embodiment of the fabric guiding device according to the invention, the drive means comprise a first and second drive means, wherein the first drive means is provided at one end of the bridge which is positionable when the coupling means are switched into their second position and wherein the second drive means is provided at the other end of said bridge. The drive means may also comprise a third drive means which is provided in the middle of the lower bridge.

In practice, it is easier to place the drive means when they are provided on the lower bridge, as a result of which this lower bridge is directly drivable. In a preferred embodiment of the fabric guiding device according to the invention, the lower bridge is thus positionable in both the first and the second position of the coupling means, and said coupling means are switchable between a first position in which the lower bridge and the upper bridge are coupled to one another, as a result of which they are positionable together, and a second position in which only the lower bridge is positionable.

According to an even more preferred embodiment of the fabric guiding device according to the invention, the drive means comprise hydraulic or electric actuators.

In a most preferred embodiment of the fabric guiding device according to the invention, the drive means comprise one or more screw means which are provided in order to position the upper bridge and the lower bridge with respect to one another and with respect to the cutting knife and the drive means comprise at least one electric motor which is provided in order to rotate the screw means for adjusting the said bridges. An example of a drive means according to the invention is a motor/spindle combination, optionally provided with a gear unit.

In a more particular embodiment of the fabric guiding device according to the invention, this comprises one or more position sensors for determining the position of the upper bridge, the lower bridge and the cutting knife. After calibration, for example with the aid of a first selected jaw adjustment with manual measurement of the distance of the lower bridge and the upper bridge from one another and with respect to the cutting position (cutting knife), the position sensors are suitable for determining the relative positions of the upper bridge, the lower bridge and the cutting knife.

Preferably, the position sensors are at least provided at both ends of both the lower bridge and the upper bridge. Furthermore, in a preferred embodiment, it is also possible to provide position sensors at both ends at the height of the cutting position. In a more preferred embodiment, one or more position sensors are likewise also provided at (or in the vicinity of) the middle of one of the bridges, for example the lower bridge. This (these) position sensor(s) is (are) particularly suitable for detecting the position of the bridge at the middle, in order to thus check whether or not the bridge has undergone bending. This bending is the result of the own weight of the bridge and/or of the forces exerted by the fabric on the bridge resulting from the yarn tension.

The position sensors used in the device are preferably of the following types: contact-based or contactless, such as optical (laser) or inductive, for example.

According to an advantageous embodiment of the fabric guiding device according to the invention, the device comprises first clamping means which are provided to release the upper bridge and the lower bridge and secure them in the set position. In a more advantageous embodiment, the device furthermore comprises second clamping means which are provided to release the lower bridge between both ends and secure it again when the desired position has been reached. The second clamping means are particularly suitable as auxiliary means to compensate for the abovementioned bending.

In a first preferred embodiment, the first clamping means and/or second clamping means are suitable to be operated manually. In a second preferred embodiment, the first clamping means and/or second clamping means are suitable to be operated automatically. In the case of automatically operated clamping means, the first clamping means and/or second clamping means comprise pneumatic, hydraulic or electric actuators.

In a more advantageous embodiment of the fabric guiding device according to the invention, the first clamping means or the first clamping means and/or second clamping means are provided to connect the upper bridge or the lower bridge, respectively, to the chassis of a weaving machine. The present invention also relates to a face-to-face weaving machine provided with a fabric guiding device according to the invention, as described above. The weaving machine or the fabric guiding device according to the invention can further be provided with means for inputting the desired jaw height and for displaying the positions measured by the position sensors.

Another subject of the present disclosure relates to a method for positioning a lower bridge and/or an upper bridge of a fabric guiding device of a face-to-face weaving machine, wherein the upper bridge and the lower bridge are positionable by means of drive means and wherein the fabric guiding device furthermore comprises coupling means which are switchable between a first and a second position, wherein the coupling means are switched to the first position, in which the lower bridge and the upper bridge are coupled to each other, to position the lower bridge and the upper bridge together, and wherein the coupling means are switched to the second position, in which the lower bridge and the upper bridge are uncoupled from each other, so that only the upper bridge or only the lower bridge is positionable by means of the drive means.

In a preferred method according to the present invention, the coupling means is switched into the first position first in order to displace both bridges together, and subsequently into the second position in order to move only the upper bridge or only the lower bridge to the desired position.

The method is particularly suitable for being applied to the fabric guiding device described in this application. More particularly, the method is suitable for being applied to a fabric guiding device comprising: first and second clamping means, a lancet device, etc.

For a preferred embodiment of the fabric guiding device according to the invention, where only the lower bridge is positionable with the coupling means switched in their second position, a further preferred method according to the invention comprises at least one of the following preparatory steps in a desired change of relative position of the lower bridge and the upper bridge with respect to one another or with respect to a cutting knife:

-   -   Determining the current positions of the upper bridge, the lower         bridge and the cutting knife, from which the jaw height, the         bending of the lower bridge (if the position in the middle of         the lower bridge is measurable) and the relative position of the         cutting line of the cutting knife with respect to the jaw         opening are derivable, wherein position sensors are provided at         least at each of the ends of the upper bridge and the lower         bridge;     -   Determining the desired new jaw height and/or the desired         relative position of the cutting line of the cutting knife with         respect to the jaw opening;     -   Converting these values into the desired new positions for the         upper bridge and the lower bridge;     -   Preparing the weaving machine:         -   In the case of a desired reduction of the jaw height, if             necessary, reducing the height of the lancets in the jaw             opening as a function of the desired new jaw height;         -   Reducing the size and/or the direction of the force of the             fabric acting on the lower bridge and the upper bridge by,             where possible, lowering the yarn tension and/or moving the             weaving frames into an adjusted position;         -   Checking and optionally activating the process of energizing             the position-adjusting drive means to a level which allows             the existing positions to be maintained when the clamping             means are released.

In order to set a desired position for the upper bridge and/or the lower bridge, the method according to the invention may comprise at least one of the following steps:

-   -   If necessary, setting the desired position of the upper bridge:         -   Switching the coupling means into the coupled state;         -   Releasing the first clamping means at the ends of the upper             bridge and the lower bridge and, if present, the second             clamping means in the middle of the lower bridge;         -   Moving the upper bridge into the desired position with the             aid of the position-adjusting drive means of the lower             bridge;         -   Securing the first clamping means at the ends of the upper             bridge;     -   Setting the desired position of the lower bridge:         -   Moving the coupling means into the uncoupled position;         -   If this has not yet happened, releasing the first clamping             means at the ends of the lower bridge and, if present, the             second clamping means in the middle of the lower bridge;         -   If there are only position-adjusting drive means at the ends             of the lower bridge, but if one or more position sensors are             present in the middle of the lower bridge:             -   Moving the lower bridge until the desired position in                 the middle of the lower bridge has been reached;             -   Securing the second clamping means in the middle of the                 lower bridge;             -   Moving the lower bridge until the desired position at                 the ends of the lower bridge has been reached;             -   Securing the first clamping means at the ends of the                 lower bridge.         -   If, in addition to the position-adjusting drive means at the             ends of the lower bridge, at least one position-adjusting             drive means, in the form of a third drive means, and one or             more position sensors are present in the middle of the lower             bridge:             -   Moving the lower bridge, with both the                 position-adjusting drive means at the ends of the lower                 bridge and those in the middle of the lower bridge,                 until the desired position at the ends of the lower                 bridge has been reached;             -   Securing the first clamping means at the ends of the                 lower bridge;             -   Moving the middle of the lower bridge with the                 position-adjusting drive means in the middle of the                 lower bridge until the desired position has been                 reached;             -   Securing the second clamping means in the middle of the                 lower bridge.         -   If no position-adjusting drive means and no position sensor             is present in the middle of the lower bridge:             -   Moving the lower bridge until the desired position at                 the ends of the lower bridge has been reached;             -   Securing the first clamping means at the ends of the                 lower bridge and the second clamping means in the middle                 of the lower bridge, if these are present.

The method according to the invention may further comprise at least one of the steps described below in order to re-prepare the weaving machine for weaving:

-   -   Deactivating the process of energizing the position-adjusting         drive means and the coupling means;     -   Bringing the yarn tension on the lower bridge and the upper         bridge to a normal level required for fabric production and/or         re-normalizing the position of the weaving frames;     -   If the jaw height has been increased, if necessary, adapting the         height of the lancets in the jaw opening as a function of the         jaw height which has just been set.

Obviously, an analogue method, with an embodiment of the fabric guiding device according to the invention in which only the upper bridge is positionable with the coupling means switched into their second position, also forms part of the present invention. This analogue method comprises at least one of the same preparatory steps as in the case of a desired change of relative position of the lower bridge and the upper bridge with respect to one another or with respect to a cutting knife and at least one of the same steps in order to re-prepare the weaving machine for weaving, as described above for the embodiment in which only the lower bridge is positionable with the coupling means switched into their second position.

For setting a desired position for the upper bridge and/or the lower bridge, said analogue method comprises at least one of the following steps:

-   -   If necessary, setting the desired position of the lower bridge:         -   Switching the coupling means into the coupled position;         -   Releasing the first clamping means at the ends of the upper             bridge and the lower bridge and, if present, the second             clamping means in the middle of the lower bridge;         -   If there are only position-adjusting drive means at the ends             of the upper bridge, but if one or more position sensors are             present in the middle of the lower bridge:             -   Moving the lower bridge with the aid of the                 position-adjusting drive means of the upper bridge until                 the desired position in the middle of the lower bridge                 has been reached;             -   Securing the second clamping means in the middle of the                 lower bridge;             -   Moving the lower bridge with the aid of the                 position-adjusting drive means of the upper bridge until                 the desired position at the ends of the lower bridge has                 been reached;             -   Securing the first clamping means at the ends of the                 lower bridge;         -   If, in addition to the position-adjusting drive means at the             ends of the upper bridge, at least one position-adjusting             drive means, in the form of a third drive means, and one or             more position sensors are present in the middle of the lower             bridge:             -   Moving the lower bridge, using both the                 position-adjusting drive means at the ends of the upper                 bridge and those in the middle of the lower bridge,                 until the desired position at the ends of the lower                 bridge has been reached;             -   Securing the first clamping means at the ends of the                 lower bridge;             -   Moving the middle of the lower bridge using the                 position-adjusting drive means in the middle of the                 lower bridge until the desired position has been                 reached;             -   Securing the second clamping means in the middle of the                 lower bridge;         -   If no position-adjusting drive means or position sensor is             present in the middle of the lower bridge:             -   Moving the lower bridge with the aid of the                 position-adjusting drive means of the upper bridge until                 the desired position at the ends of the lower bridge has                 been reached;             -   Securing the first clamping means at the ends of the                 lower bridge and the second clamping means in the middle                 of the lower bridge, if these are present;     -   Setting the desired position of the upper bridge:         -   Bringing the coupling means into the uncoupled position;         -   If this has not yet happened, releasing the first clamping             means at the ends of the upper bridge;         -   Moving the upper bridge until the desired position at the             ends of the upper bridge has been reached;         -   Securing the first clamping means at the ends of the upper             bridge.

BRIEF DESCRIPTION OF THE DRAWINGS

In order to further explain the properties of the present invention and to indicate additional advantages and particulars thereof, a more detailed description of a fabric guiding device according to the present invention now follows. It will be clear that nothing in the following description can be interpreted as a limitation of the scope of protection of the present invention defined in the claims.

In this description, reference numerals are used to refer to the attached drawings, in which:

FIG. 1 shows a perspective view of a fabric guiding device according to the invention with the lower bridge and the upper bridge in the coupled position;

FIG. 2 shows a front view of the device illustrated in FIG. 1;

FIG. 3 shows a rear view of the device illustrated in FIG. 1;

FIG. 4 shows a detail view of the area B encircled in FIG. 2;

FIG. 5 shows a detail view of the area C encircled in FIG. 3;

FIG. 6 shows a detail view of the area A encircled in FIG. 1.

DETAILED DESCRIPTION

The fabric guiding device (1) for a face-to-face weaving machine according to an embodiment of the present invention and illustrated in FIGS. 1 to 3 comprises a cutting knife (8) and an upper bridge (2) and a lower bridge (3) which are positionable with the aid of drive means (4 a; 4 b) at an adjustable distance from one another and from the cutting knife. The cutting knife is movable on a guide which is securely connected to the machine frame.

The drive means (4 a; 4 b) comprise a first (4 a) and second (4 b) drive means. The drive can be realized electrically (screw spindle+servomotor+gear unit) or hydraulically (hydraulic servo cylinders). In the illustrated device (1), the drive means (4 a; 4 b) are mechanically connected to the ends of the lower bridge (3). The system which guarantees the vertical movement of the lower bridge mainly comprises a mounted screw spindle and a servomotor with a gear unit. The upper bridge (2) does not have its own drive for its positioning. In order to move (position) the upper bridge (2), it can be mechanically connected to the lower bridge (3), in which case both move together. In order to realize the mechanical connection (coupling) between the lower bridge (3) and the upper bridge (2), the device (1) comprises coupling means (5) which are switchable between a first position in which the upper bridge (2) and the lower bridge (3) are coupled to one another, as a result of which the upper bridge (2) and the lower bridge (3) are positionable together with the aid of said drive means (4 a; 4 b), and a second position in which the upper bridge (2) and the lower bridge (3) are decoupled from one another so that only the lower bridge (3) is positionable with the aid of the drive means (4 a; 4 b).

The mechanical connection between the lower bridge (3) and the upper bridge (2) can be engaged or disengaged at any position. The mechanical connection is achieved by an adjustable mechanical locking element or with the aid of a connection based on friction (clamping based on hydraulic machine clamps), optionally combined with said adjustable mechanical locking element. The mechanical locking element can be actuated electrically, hydraulically or pneumatically. For instance, it is possible to first bring the upper bridge (2) into position in order to then disengage the mechanical connection and subsequently to bring the lower bridge (3) into position. Once the set position has been reached, the lower bridge (3) and the upper bridge (2) are secured in this position. To this end, the device (1) is provided with first clamping means (6).

In order to limit bending of the lower bridge (3) under load (during weaving) and thus to achieve a good and constant product quality, the middle of the lower bridge (3) must be supported. To this end, the device (1) comprises second clamping means (7) which are provided in order to secure the lower bridge (3) between its two ends when the desired position has been reached. This support is passive. In the context of the invention, passive support is understood to mean that a certain middle position can be guaranteed, but that the support itself cannot change this position. The following text contains an explanation of this passive support.

In order to keep the bending of the lower bridge (3) under control, the desired positions of the ends of the lower bridge (3) will also be used as the basis for a desired middle position. The desired middle position will always be in relation to the position of the ends of the lower bridge (3).

If desired, the system for middle support by means of second clamping means (7) is provided with several second clamping means (7), distributed across the distance between the ends of the lower bridge (3).

The middle support is activated when the desired middle position has been reached. The desired middle position of the lower bridge is realized by moving the entire lower bridge upwards/downwards until the desired middle position has been reached. At that point, the middle support is activated and this middle position is thus secured.

The system of passive support described above can be expanded, as explained below, to include an ‘active’ component. ‘Active’ is used to refer to the fact that the support can not only secure the middle position but that this system is also able to change this position itself independently of the ends of the lower bridge. This expansion does require an additional (third) drive means which is positioned in the vicinity of the middle and which is able to compensate for the bending of the lower bridge in a simple manner.

When the desired position of the lower bridge (3) and/or the upper bridge (2) is reached, the position is secured by clamping both ends of the bridges against the supports via the first clamping means (6). This removes any degree of freedom. These supports are mounted against the chassis of the machine. The connection is based to a significant extent on friction. This clamping may be achieved by manually adjustable bolted connections or, alternatively, by means of machine clamps which can be automatically engaged and disengaged. The machine clamps operate on the basis of hydraulic pressure or on the basis of a mechanical spring which can be hydraulically disengaged.

The machine clamps move together with the bridges, which is possible owing to the fact that grooves are present in the supports and because the clamps can assume different positions on the bridges.

The bridges are clamped during the operation of the machine; the clamps are only released in order to carry out positioning.

The load on the system for positioning can be reduced by reducing the tension on the yarns during the positioning of the upper bridge and/or the lower bridge and/or by adjusting the angle of the yarn with the horizontal plane. Prior to the positioning, the machine control unit will lower the yarn tension on the lower bridge and the upper bridge and/or adjust the position of the weaving frames. After the positioning, these changes will be reversed.

The fabric guiding device (1) can also be provided with position sensors (9) arranged at both ends of the device, either to measure the distance of both the upper bridge (2) and the lower bridge (3) from the cutting knife (8) or to measure the mutual distance between the upper bridge (2) and the lower bridge (3), or both. These measurement signals recorded by the position sensors (9) can be displayed within the visual field of the user (operator). During the adjustment of the bridges, he can simply read off what the new jaw height is (in the case of measurement of the distance between the upper bridge (2) and the lower bridge (3)) or what the new distance is between the upper bridge (2) and the cutting knife (8) and/or between the lower bridge (3) and the cutting knife (8) (in a good setting, both of these distances should be substantially identical). In this way, the user immediately sees the effect of his adjustment and can terminate it once he has reached the desired jaw height and thus the desired pile height resulting therefrom. The position sensors used are, for example, contactless sensors such as those based on laser beams, for example.

A processor unit can also be used in order to move the upper bridge (2) and/or the lower bridge (3) over a specified distance via the drive means in combination with the signals from the position sensors. In this case, the first (4 a) and the second (4 b) drive means are preferably actuated synchronously.

Furthermore, the fabric guiding device (1) can also be provided with one or more position sensors in the middle of the lower bridge. With the display of the measurement signals from this (these) position sensor(s) in combination with the desired middle position of the lower bridge, the user can minimize the bending of the lower bridge during the positioning of the lower bridge. If there are no position sensors in the middle of the lower bridge, the user can provide the processor unit with a (manual) measurement value for the bending of the lower bridge, so that it is still possible to take into account the bending during the movement of the lower bridge and thus minimize the bending to the greatest possible extent. 

1. Fabric guiding device for a face-to-face weaving machine, comprising a cutting knife and an upper bridge and a lower bridge which are positionable at adjustable distances from one another and from the cutting knife by means of a drive, wherein the device comprises couplers which are switchable between a first position in which the upper bridge and the lower bridge are coupled to one another, as a result of which the upper bridge and the lower bridge are positionable together with the aid of said drive and a second position in which the upper bridge and the lower bridge are decoupled from one another so that only the upper bridge or only the lower bridge is positionable with the aid of the drive.
 2. Fabric guiding device according to claim 1, characterized in that the lower bridge is positionable in both the first and the second position of the couplers and in that said couplers are switchable between a first position in which the lower bridge and the upper bridge are coupled to one another, as a result of which they are positionable together, and a second position in which only the lower bridge is positionable.
 3. Fabric guiding device according to claim 1, characterized in that the drive comprise hydraulic or electric actuators.
 4. Fabric guiding device according to claim 1, characterized in that the drive comprise one or more screw mechanisms which are provided in order to position the upper bridge and the lower bridge with respect to one another and with respect to the cutting knife, and in that the drive comprises at least one electric motor which is provided in order to rotate the screw mechanisms for adjusting said bridges.
 5. Fabric guiding device according to claim 1, characterized in that the drive comprises a first and second drive, wherein the first drive is provided at one end of the bridge which is positionable when the couplers are switched into their second position and in that the second drive is provided at the other end of said bridge.
 6. Fabric guiding device according to claim 1, characterized in that the fabric guiding device comprises one or more position sensors (9) for determining the position of the upper bridge, the lower bridge and the cutting knife.
 7. Fabric guiding device according to claim 6, characterized in that said position sensors are at least provided at the ends of both the upper bridge and the lower bridge.
 8. Fabric guiding device according to claim 6, characterized in that said position sensors are at least provided at the middle of the lower bridge.
 9. Fabric guiding device according to claim 1, characterized in that the device comprises first clampers which are provided to release the upper bridge and the lower bridge and secure them in the set position.
 10. Fabric guiding device according to claim 9, characterized in that the device comprises second clampers which are provided to release the lower bridge between both ends and secure it again when the desired position has been reached.
 11. Fabric guiding device according to claim 10, characterized in that the first clampers and/or second clampers comprise pneumatic, hydraulic or electric actuators.
 12. Fabric guiding device according to claim 9, characterized in that the first clampers or the first clampers and/or second clampers are provided to connect the upper bridge or the lower bridge, respectively, to the chassis of the weaving machine.
 13. Face-to-face weaving machine provided with a fabric guiding device according to claim
 1. 14. Method for positioning a lower bridge and/or an upper bridge of a fabric guiding device of a face-to-face weaving machine, wherein the upper bridge and the lower bridge are positionable by means of a drive, wherein the fabric guiding device furthermore comprises couplers which are switchable between a first and a second position, in that the couplers are switched to the first position, in which the lower bridge and the upper bridge are coupled to each other, to position the lower bridge and the upper bridge together, and in that the couplers are switched to the second position, in which the lower bridge and the upper bridge are uncoupled from each other, so that only the upper bridge or only the lower bridge is positionable by means of the drive.
 15. Method according to claim 14, characterized in that the couplers are switched into the first position first in order to displace both bridges together, and subsequently into the second position in order to move only the upper bridge or only the lower bridge to the desired position. 